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As teachers and parents, we often hear that children are the best scientists. Great science teachers tune in to children’s interests and observations to create engaging and effective lessons. This focus on the innate curiosity of children, or humans overall is celebrated and used to justify and support efforts around STEM teaching and learning. Yet, when we discuss elementary school teachers, we often hear many inside and outside the classroom report that these teachers dislike, fear, and feel uncomfortable with science. This is exactly the opposite approach from what is universally recommended by science education scholars. This practical textbook meets the immediate, contextual needs of future and current elementary teachers by using an assets-based approach to science teaching, showing how to create inquiry-based lessons, differentiate instruction and lesson design based on children’s developmental ages and needs, and providing easy-to-use tools to advocate for scientific teaching and learning guided by the Next Generation Science Standards (NGSS).
What do aspiring and practicing elementary science teacher education faculty need to know as they plan and carry out instruction for future elementary science teachers? This scholarly and practical guide for science teacher educators outlines the theory, principles, and strategies needed, and provides classroom examples anchored to those principles. The theoretical and empirical foundations are supported by scholarship in the field, and the practical examples are derived from activities, lessons, and units field-tested in the authors’ elementary science methods courses. Designing and Teaching the Elementary Science Methods Course is grounded in the theoretical framework of pedagogical content knowledge (PCK), which describes how teachers transform subject matter knowledge into viable instruction in their discipline. Chapters on science methods students as learners, the science methods course curriculum, instructional strategies, methods course assessment, and the field experience help readers develop their PCK for teaching prospective elementary science teachers. "Activities that Work" and "Tools for Teaching the Methods Course" provide useful examples for putting this knowledge into action in the elementary science methods course.
Grade level: 1, 2, 3, 4, 5, 6, 7, e, p, i, t.
2018 Outstanding Academic Title, Choice Ambitious Science Teaching outlines a powerful framework for science teaching to ensure that instruction is rigorous and equitable for students from all backgrounds. The practices presented in the book are being used in schools and districts that seek to improve science teaching at scale, and a wide range of science subjects and grade levels are represented. The book is organized around four sets of core teaching practices: planning for engagement with big ideas; eliciting student thinking; supporting changes in students’ thinking; and drawing together evidence-based explanations. Discussion of each practice includes tools and routines that teachers can use to support students’ participation, transcripts of actual student-teacher dialogue and descriptions of teachers’ thinking as it unfolds, and examples of student work. The book also provides explicit guidance for “opportunity to learn” strategies that can help scaffold the participation of diverse students. Since the success of these practices depends so heavily on discourse among students, Ambitious Science Teaching includes chapters on productive classroom talk. Science-specific skills such as modeling and scientific argument are also covered. Drawing on the emerging research on core teaching practices and their extensive work with preservice and in-service teachers, Ambitious Science Teaching presents a coherent and aligned set of resources for educators striving to meet the considerable challenges that have been set for them.
This core text for the K-8 methods course in science is a practical guide to teaching science in inquiry-centered and standards-based classrooms. Its inclusive coverage of the major domains of science includes examples from the studies of life, physics, earth, space, and environment. This edition integrates technology thoroughly with science content, instructional methods, and cues to monitoring student development.
Contents: Introduction, Scope and Nature, Role of Teacher, Teacher Training, Methods of Teaching, Children and Learning, The Resources, EVS Course, Enrichment Course, Dynamic Experiments, Evaluation Process, Behavioural Objectives, The Analysis, Suggested Activities, Sample Lesson Plans, Model Lesson, Sample Questions, Model Papers.
Teaching Science in Elementary and Middle School offers in-depth information about the fundamental features of project-based science and strategies for implementing the approach. In project-based science classrooms students investigate, use technology, develop artifacts, collaborate, and make products to show what they have learned. Paralleling what scientists do, project-based science represents the essence of inquiry and the nature of science. Because project-based science is a method aligned with what is known about how to help all children learn science, it not only helps students learn science more thoroughly and deeply, it also helps them experience the joy of doing science. Project-based science embodies the principles in A Framework for K-12 Science Education and the Next Generation Science Standards. Blending principles of learning and motivation with practical teaching ideas, this text shows how project-based learning is related to ideas in the Framework and provides concrete strategies for meeting its goals. Features include long-term, interdisciplinary, student-centered lessons; scenarios; learning activities, and "Connecting to Framework for K–12 Science Education" textboxes. More concise than previous editions, the Fourth Edition offers a wealth of supplementary material on a new Companion Website, including many videos showing a teacher and class in a project environment.
"This book comes at just the right time, as teachers are being encouraged to re-examine current approaches to science instruction." -Lynn Rankin, Director, Institute for Inquiry, Exploratorium "Easy to read and comprehend with very explicit examples, it will be foundational for classroom teachers as they journey from novice teacher of science to expert." -Jo Anne Vasquez, Ph.D., Past President of the National Science Teachers Association "Teaching Science for Understanding is a comprehensive, exquisitely written guide and well-illustrated resource for high quality teaching and learning of inquiry-based science." -Hubert M. Dyasi, Ph.D., Professor of Science, City College and City University of New York Even though there is an unending supply of science textbooks, kits, and other resources, the practice of teaching science is more challenging than simply setting up an experiment. In Teaching Science for Understanding in Elementary and Middle Schools, Wynne Harlen focuses on why developing understanding is essential in science education and how best to engage students in activities that deepen their curiosity about the world and promote enjoyment of science. Teaching Science for Understanding in Elementary and Middle Schools centers on how to build on the ideas your students already have to cultivate the thinking and skills necessary for developing an understanding of the scientific aspects of the world, including: helping students develop and use the skills of investigation drawing conclusions from data through analyzing, interpreting, and explaining creating classrooms that encourage students to explain and justify their thinking asking productive questions to support students' understanding. Through classroom vignettes, examples, and practical suggestions at the end of each chapter, Wynne provides a compelling vision of what can be achieved through science education...and strategies that you can implement in your classroom right now.
Nationally and internationally, educators now understand the critical importance of STEM subjects—science, technology, engineering, and mathematics. Today, the job of the classroom science teacher demands finding effective ways to meet current curricula standards and prepare students for a future in which a working knowledge of science and technology will dominate. But standards and goals don’t mean a thing unless we: • grab students’ attention; • capture and deepen children’s natural curiosity; • create an exciting learning environment that engages the learner; and • make science come alive inside and outside the classroom setting. A Guide to Teaching Elementary Science: Ten Easy Steps gives teachers, at all stages of classroom experience, exactly what the title implies. Written by lifelong educator Yvette Greenspan, this book is designed for busy classroom teachers who face tough conditions, from overcrowded classrooms to shrinking budgets, and too often end up anxious and overwhelmed by the challenges ahead and their desire for an excellent science program. This book: • helps teachers develop curricula compatible with the Next Generation Science Standards and the Common Core Standards; • provides easy-to-implement steps for setting up a science classroom, plus strategies for using all available resources to assemble needed teaching materials; • offers detailed sample lesson plans in each STEM subject, adaptable to age and ability and designed to embrace the needs of all learners; and • presents bonus information about organizing field trips and managing science fairs. Without question, effective science curricula can help students develop critical thinking skills and a lifelong passion for science. Yvette Greenspan received her doctorate degree in science education and has developed science curriculum at all levels. A career spent in teaching elementary students in an urban community, she now instructs college students, sharing her love for the teaching and learning of science. She considers it essential to encourage today’s students to be active learners and to concentrate on STEM topics that will help prepare them for the real world.
Your Science Classroom: Becoming an Elementary / Middle School Science Teacher, by authors M. Jenice "Dee" Goldston and Laura Downey, is a core teaching methods textbook for use in elementary and middle school science methods courses. Designed around a practical, "practice-what-you-teach" approach to methods instruction, the text is based on current constructivist philosophy, organized around 5E inquiry, and guided by the National Science Education Teaching Standards.